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Volume 25, Issue 3, Pages 229-240 (May 2013)
EGF-Induced Centrosome Separation Promotes Mitotic Progression and Cell Survival Balca R. Mardin, Mayumi Isokane, Marco R. Cosenza, Alwin Krämer, Jan Ellenberg, Andrew M. Fry, Elmar Schiebel Developmental Cell Volume 25, Issue 3, Pages (May 2013) DOI: /j.devcel Copyright © 2013 Elsevier Inc. Terms and Conditions
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Figure 1 EGF Addition Induces Premature Centrosome Separation in S Phase (A) HeLa cells were arrested in S phase and then treated with or without EGF (100 ng/ml) for 4 hr in the presence of aphidicolin. Cells were then fixed and stained for α- (green) and γ-tubulin (red). DNA is stained in blue. Scale bar represents 10 μm. (B) Asynchronous (−aphidicolin) or S phase arrested (+aphidicolin) HeLa cells were incubated without (red bars) or with 50 ng/ml (blue bars) of EGF. The percentage of cells with separated centrosomes was scored. Results are from three independent experiments. n ≥ 300 cells were counted in each case. Data are presented as mean ± SD. (C) HeLa cells arrested in S phase were treated with increasing concentrations of EGF and scored for the percentage of cells with separated centrosomes. Results are from two independent experiments. n ≥ 150 cells were counted in each case. Data are presented as mean ± SD. (D) HeLa cells synchronized in S phase were kept untreated (red bar) or treated with 50 ng/ml EGF (blue bars) for 4 hr in the presence of the indicated inhibitors. Results are from three independent experiments. n ≥ 150 cells were counted in each case. Data are mean ± SD. (E) HeLa cells were transfected with the indicated constructs and treated with 5 ng/ml of EGF. The percentage of cells with separated centrosomes was scored by indirect immunofluorescence. Results are from two independent experiments. n ≥ 50 cells were counted in each case. Data are presented as mean ± SD. (F) HeLa cells were synchronized in S phase and kept untreated (red bar) or treated with indicated EGFR ligands (blue bars) for 4 hr. Epiregulin is depicted as ER and Amphiregulin is shown as AR. Results are from two independent experiments. n ≥ 150 cells were counted in each case. Data are mean ± SD. See also Figure S1. Developmental Cell , DOI: ( /j.devcel ) Copyright © 2013 Elsevier Inc. Terms and Conditions
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Figure 2 EGF Induces Centrosome Separation through the Mst2-hSav1-Nek2A Kinase Module (A) HeLa cells were transfected with NSC (nonspecific control), Nek2, Mst1/2, or hSav1 siRNA oligos, arrested in S phase and either kept untreated or treated with 50 ng/ml EGF for four hours. Cells were then fixed and costained with α- and γ-tubulin antibodies. Scale bar represents 10 μm. Insets show the magnified centrosomes in each panel. (B) Extracts of nonspecific control (NSC), Nek2, Mst1/2, or hSav1 siRNA-treated HeLa cells were analyzed by immunoblotting using GAPDH, hSav1, Mst1/2, and Nek2 antibodies. (C) Quantification of the analysis in (A). Results are from three independent experiments. n ≥ 100 cells counted for each condition. Data are mean ± SD. (D–I) HeLa cells were treated as in (A). Cells were then fixed and costained for γ-tubulin and Nek2 (D), rootletin (F), or C-Nap1 (H) antibodies. Scale bar represents 10 μm. The intensity of centrosomal Nek2 (E), rootletin (G), and C-Nap1 signals (I) in cells from (D), (F), and (H) were measured. The average background intensity was subtracted and the intensities were normalized to corresponding γ-tubulin signals. Results are from three independent experiments. n > 30 cells were analyzed for each condition. Box-and-whiskers plots: boxes show the upper and lower quartiles (25%–75%) with a line at the median, whiskers extend from the 10th to the 90th percentile and dots correspond to the outliers. See also Figure S2. Developmental Cell , DOI: ( /j.devcel ) Copyright © 2013 Elsevier Inc. Terms and Conditions
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Figure 3 EGF Reduces the Requirement of Eg5 during Mitosis
(A) HeLa cells were arrested in S phase, released into G2 with or without EGF addition (50 ng/ml), and re-arrested in early mitosis by 5 μM STLC for 4 hr. Cells were then fixed and stained with α- and γ-tubulin antibodies. Scale bar represents 5 μm. (B) Cells were treated as in (A) with 5 μM STLC and then incubated with the indicated EGF concentrations. Cells were analyzed for their ability to form bipolar spindles. Results are from three independent experiments. n > 100 cells were counted for each condition. Data are mean ± SD. (C) Cells were treated with aphidicolin and with (blue bars) or without EGF (50 ng/ml) (red bars) as in (A) followed by incubation with the indicated STLC concentrations. Cells were then analyzed for their ability to form a bipolar spindle. Results are from three independent experiments. n > 100 cells counted for each condition. Data are mean ± SD. (D) Still images taken from movies of HeLa cells stably expressing H2B-mCherry. Cells were first arrested in S phase, released into G2 with or without EGF (50 ng/ml) addition, and then imaged every 6 min in the presence of 5 μM STLC. The percentage of cells that completed mitosis is indicated above the panels. n > 50 cells analyzed for each condition. Asterisks indicate the dividing cells in the sample. (E) Extracts of nonspecific control (NSC), or hKlp2/Kif15 siRNA-treated HeLa H2B-mCherry cells were analyzed by immunoblotting using GAPDH and hKlp2/Kif15 antibodies. (F) HeLa H2B-mCherry cells were transfected with NSC or hKlp2/Kif15 siRNA oligos, arrested in S phase, released into G2 with or without EGF addition, and imaged every 6 min in the presence of 5 μM STLC. The cells were analyzed for their ability to form bipolar spindles. Data are mean ± SD. See also Figures S3 and S4 and Movie S1. Developmental Cell , DOI: ( /j.devcel ) Copyright © 2013 Elsevier Inc. Terms and Conditions
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Figure 4 EGFR Signaling Accelerates Mitosis
(A) Still images from the movies of HeLa cells stably expressing eGFP-LaminA and H2B-mCherry with and without EGF addition following their release from S phase arrest. Images are collected with a time resolution of 3 min. Time spent during metaphase is indicated in minutes. (B) Individual cell histories during metaphase progression. Each horizontal bar represents one cell. The records are sorted according to the metaphase progression rate. n = 147 and 149 events were analyzed for cells with (+EGF) and without (−EGF), respectively. (C) Quantification of the events shown in (B). Metaphase progression in single cells was automatically measured after classification of cells by cell cognition. Box-and-whiskers plots: boxes show the upper and lower quartiles (25%–75%) with a line at the median, whiskers extend to minimum and maximum values. (D) HeLa cells expressing Mad2-LAP and H2B-mCherry were incubated with or without EGF in the presence of nocodazole. Cells were fixed and stained with monoclonal Cenp-A antibodies. Scale bar represents 5 μm. (E) Ratiometric analysis of the Mad2:Cenp-A signal intensities of cells in (D). Signal intensities on the kinetochores were analyzed automatically. Box-and-whiskers plots: boxes show the upper and lower quartiles (25%–75%) with a line at the median, whiskers extend to minimum and maximum values. See also Figure S5 and Movie S2. Developmental Cell , DOI: ( /j.devcel ) Copyright © 2013 Elsevier Inc. Terms and Conditions
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Figure 5 EGFR Signaling Increases Fidelity of Chromosome Segregation
(A) Representative images of different classes of mitotic defects that were analyzed from movies in Figure 4A. Scale bar represents 5 μm. See also Movie S3. (B) Manual quantification of mitotic defects from movies of HeLa-eGFP-LaminA/H2B-mCherry cells that were treated with or without EGF (50 ng/ml). Movies of five independent experiments were analyzed. Data are mean ± SD. (C) HeLa-eGFP-LaminA/H2B-mCherry cells were cultured in the presence or absence of EGF for 6 days. For the last division, they were imaged by high content screening microscopy and automatically scored for the formation of the polylobed nuclei. In total, 5,800 cells for untreated samples and 3,600 cells for EGF-treated samples were analyzed. Data are mean ± SD. (D) HCT116 cells were incubated with (blue bars) or without (purple bars) EGF for 6 days. Cells were then fixed and analyzed by FISH with four different chromosome-specific centromere probes. Deviant fractions represent the percentages of the cells deviating from the modal number (two for HCT116 cells for all the four chromosomes analyzed). n > 800 for all measurements. Data are mean ± SD. Developmental Cell , DOI: ( /j.devcel ) Copyright © 2013 Elsevier Inc. Terms and Conditions
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Figure 6 EGFR Signaling Induces Different Levels of Centrosome Separation (A) All cells were arrested in S phase by aphidicolin and the frequency of centrosome separation was analyzed in the presence of increasing concentrations of EGF (1–100 ng/ml). n > 100 cells were counted for each condition. Examples of separated and unseparated centrosomes with γ-tubulin staining (red) are shown. (B) Asynchronous RPE-1, HeLa, AsPC-1, and CAPAN-1 cells were induced with 50 ng/ml EGF. Cell extracts were analyzed after blotting with indicated antibodies. (C) RPE-1, HeLa, AsPC-1, and CAPAN-1 cells were arrested in S phase, and then treated with or without EGF (50 ng/ml). Cells were stained with γ-tubulin and Nek2 antibodies and the centrosomal association of Nek2 was determined in relation to γ-tubulin. Box-and-whiskers plots: boxes show the upper and lower quartiles (25%–75%) with a line at the median, whiskers extend to minimum and maximum values. (D) CAPAN-1 and AsPC-1 cells were treated with or without Akt inhibitor IV and arrested in S phase. Cells were then stained with γ-tubulin antibodies and scored for the number of cells with separated centrosomes. Data are mean ± SD. (E) RPE-1 cells were transfected with EGFR-eGFP for 18 hr while being arrested in S phase by aphidicolin. Cells were then fixed and analyzed by indirect immunofluorescence. The percentage of cells with separated centrosomes was scored. Results are from three independent experiments. n ≥ 30 cells were counted in each case. Data are presented as mean ± SD. (F) RPE-1, HeLa, AsPC-1, and CAPAN-1 cells were arrested in S phase, released into G2 with or without EGF addition (50 ng/ml), and treated with 5 μM STLC for 4 hr. Cells were then analyzed for their ability to form bipolar spindles. Results are from three independent experiments. n > 50 cells counted for each condition. Data are mean ± SD. (G) Average time from chromosome condensation to anaphase (RPE-1 H2B-RFP) or cell rounding to chromosome segregation (AsPC-1 and CAPAN-1) was quantified for cells with and without EGF addition (50 ng/ml). Box-and-whiskers plots: boxes show the upper and lower quartiles (25%–75%) with a line at the median, whiskers extend to minimum and maximum values. See also Figure S6. Developmental Cell , DOI: ( /j.devcel ) Copyright © 2013 Elsevier Inc. Terms and Conditions
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Figure 7 The Rates of Cell Proliferation and Survival in Cancer Cells Vary in Response to Changes in EGFR Signaling and Eg5 Inhibition (A) RPE-1, HeLa, AsPC-1, and CAPAN-1 cells were treated with or without EGF (+/−) and incubated in the presence of STLC (2.5 or 5 μM) for 3 days. The metabolic activity of the cells was analyzed by the MTT assay and is presented relative to the activity at the start of the experiment in each case. The results are from three independent experiments. Data are mean ± SD. (B) RPE-1, HeLa, AsPC-1, and CAPAN-1 cells were treated with EGFR kinase inhibitor Gefitinib (0 to 1 μM) and the Eg5 inhibitor STLC (0, 2.5, or 5 μM) for 3 days. The metabolic activity of the cells was analyzed by the MTT assay and is normalized relative to the activity of untreated cells. Heat maps are generated with GiTools software. For individual graphs see Figure S6C. (C) EGF induces centrosome separation during S phase through the Akt branch of the signaling pathway. This leads to increased accumulation of Nek2A at the centrosomes resulting in premature resolution of the centrosome linker. During mitosis, this premature centrosome separation reduces the requirement for Eg5 in bipolar spindle formation but renders mitosis reliant upon the alternative motor hKlp2/Kif15. Different cell types respond differently to EGF addition at both single-cell and population level. See Discussion for details. Developmental Cell , DOI: ( /j.devcel ) Copyright © 2013 Elsevier Inc. Terms and Conditions
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